DE4339546A1 - Portable facsimile apparatus - copies original using store and forward memory and comprises image data to increase compression ratio - Google Patents

Abstract

The apparatus has a scanner (9) to read the original document and produce corresponding image data. An image store (8) stores the data in compressed form. A plotter (10) prints the compressed then reconstructed data. The scanner (9) and the plotter (10) use a single common drive motor. When the image data is written into the memory and then printed, the storing of the data and the printing are carried out using a two-dimensional coding scheme. USE/ADVANTAGE - Esp. for portable fax machines. Allows high quality reproduction with high compression ratio.

Description

The invention relates to a facsimile device according to the preamble of claim 1, and relates in particular to a copying system and a transmission system for a portable facsimile machine.

A facsimile machine such as that disclosed in the Japanese Patent Application (Kokai) No. 259 660/1991 ben has a single stepper motor and switches the Direction of rotation of the motor to selectively one in a reading system provided conveyor roller or one in a recording system to rotate the intended conveyor roller. If the direction of the front previous rotary movement itself from the subsequent rotary movement direction, the number of steps to Driving the motor increased by a predetermined number.

A portable facsimile machine, its scanner and plotter sharing single motor shows the following Schwie when operating to collect a template pier. This type of device writes image data that a template ge represent in a SAF (store and forward) memory and then prints them out. If the memory is in the course of a Storage overflows, the image data stored in the memory have been saved, and then the Storage resumed. This procedure will continue until  Repeated end of template. Since save at this time and printing alternately, a two-way process Dimensional copying scheme should not be used as this will cause would ge that a reference line for coding when printing would delete. For example, a line buffer is supposed to be a line # 0, which is assigned to a reference line, and a line # 1 assigned to a line to be encoded. In In this case, encoded data is then printed have been saved in line # 0 for storage, deleted by encoded data for printing. Furthermore, if the alternate saving and printing by a single Program can be controlled in the event of a memory overflow, various parameters at the time of memory overflow be saved, which results in complicated control Has. In addition, if image data must represent a template and stored in a memory to a remote fac should be sent to the similestation, the template back into the Device.

It is therefore an object of the invention to provide a facsimile machine create with which a template with the help of a picture memory or a SAF memory by means of a two-dimensional Coding method can be encoded to thereby the Verdich ratio to increase. According to the invention, this is at a facsimile machine according to the preamble of claim 1 the characteristics achieved in its characteristic part. Advantage Adherent developments are the subject of claim 1 claims that are directly or indirectly related.

The invention is based on preferred embodiments tion forms with reference to the accompanying drawings in individual explained. Show it:

Fig. 1 is a block diagram schematically showing a facsimile advises according to the invention;

Fig. 2 is a block diagram schematically showing the characteristic arrangement of the invention, and

Figs. 3A to 3C are flowcharts illustrating a specific example of the working embodiment.

In Fig. 1, a facsimile device according to the invention is Darge. The device has an NCU (network control) unit 1 , a Mo 2 , a ROM (read-only memory) 3 , a RAM (Randomspei cher) 4 , a central processing unit (CPU) 5 , a control panel 6 , a DCR (data - Compression and reconstruction) unit 7 , egg NEN image memory or a SAF (store and forward) memory 8 , a scanner (SCN) 9 and a plotter 10th Fig. 2 shows a characteristic arrangement of the device, which has a line buffer 4 a. In Fig. 2, the same blocks as the blocks shown in Fig. 1 are denoted by the same reference numerals.

The scanner 9 and the plotter 10 share a single drive motor. The facsimile machine is now to be operated to copy a template. When the drive motor is excited, the scanner 9 reads the original and generates corresponding image data. The image data are then written once in the buffer memory 4 a of the RAM 4 , compressed by the DCR unit 7 and then stored in the SAF memory 8 . When a page of compressed data is completely written into SAF memory 8 , it is reconstructed by means of DCR unit 7 and then written line by line into line buffer 4 a again. The drive motor is then energized again so that the plotter 10 prints the image data on a recording medium.

Now one side of compressed data should exceed the capacity of the SAF memory 8 . Then, immediately before the data exceeds the capacity of the memory 8 , the data that has been stored is reconstructed and printed; the rest of the data is then read and subsequently compressed. This procedure is repeated until the end of a page under the control of the software, using a two-dimensional coding mode. The software is designed as a multiple task.

Facsimile encoding systems for black and white images have one basic facsimile coding system, which is a two-dimensional line-by-line coding scheme. The position of a Picture element (pixel) that is on a coded or Coding line has been changed regarding position of a reference picture element encoded on the code line or a reference line immediately above the coding line is there. After the coding line has been completely coded it serves as a reference line for the next coding row. For the first code line of a page, an imaginary re white line used as a reference line.

As shown in FIG. 2, since the scanner 9 and the plotter 10 share a single drive motor, the plotter 10 can not print data when the scanner 9 is in operation, and therefore the resulting data is stored in the SAF memory 8 are to be written. Also, as long as the plotter 10 is operating, the scanner 9 cannot read an image and data cannot be written to the SAF memory 78 . If the line buffer 4 a of the RAM 4 has four lines # 0 to # 3, the image data generated by the scanner 9 are successively stored in lines # 0 to # 3. The data stored in the line buffer 4 a are encoded in two dimensions, compressed by the DCR unit 7 and then written into the SAF memory 8 in the form of compressed data.

Since the capacity of the SAF memory 8 is limited, a memory overflow occurs depending on the amount of image data. In particular, as shown in FIG. 2, the SAF memory 8 is said to have reached the capacity when data has been encoded up to a point a on line # 1 of line buffer 4 a. Then, data following point a is not encoded or written into the memory 8 . This part of data is encoded independently by and by the same task when the data has been encoded. After all the data has been encoded, a print task or task belonging to another task group is carried out in order to encode the data stored in the line buffer 4 a ge line by line and then using means of the plotter 10 to press. It should be noted that the term "task" refers to the minimum unit of work to be performed by a computer and to be triggered by a single program or command.

In the illustrated embodiment, image data is represented by ei ne task saved and printed by the other task. This Tasks are contained in different groups, and so on data storage and printing by switching the task to how derholen.

Figs. 3A to 3C are flowcharts example illustrate a specific embodiment of work to store by using a two-dimensional coding scheme and image data to be printed. In particular, FIG. 3A shows a case in which the SAF memory 8 does not overflow, while FIG. 3B shows a case in which it overflows. At the beginning, as shown in FIG. 3A, as long as no triggering or triggering occurs, a start or start-up monitoring task is carried out. Under this condition, the operator should have loaded the device with a template and pressed a copy key. Then a start monitor I is switched to a memory task in order to start the operation of the scanner 9 (step S1). Whether the SAF memory 8 overflows or not is determined (S2) and if it does not overflow (no) it is determined whether data is present in the line buffer 4 a or not (S3).

If data is present in the buffer memory 4 a (yes, in step S3), a data line is encoded (S4). Each time a line of data is encoded, the program returns after the task is switched to the task belonging to the next group (S5). When a full page is encoded, an end-of-facsimile block (EOFB) code is set (S6). Then the program returns to the start monitor. At the same time, the program starts the print task belonging to another group, which is indicated by an arrow c in Fig. 3A. As a result, the plotter 10 starts printing the data (S7). As soon as a line is decoded (S9), the task is replaced by the task of the next group (S11). When an EOFB code is found, the program ends (S10).

SAF memory 8 is now said to have overflowed while data storage is in progress (yes, at step S2). Then the operation is transmitted at A as shown in Fig. 3B. As shown, in order to fully encode the line to be encoded, data following the point at which the overflow has occurred is successively written into a FIFO buffer in the RAM 4 (S12). The FIFO buffer is not used when a transfer is not in progress. If the next line is to be encoded, the current line is needed as a reference line; the reference line would be deleted by printing. As a result, the current line is saved in the RAM 4 (S13). The task is switched repeatedly until printing is interrupted due to the lack of data in the memory (S14 and S14-1).

In particular, when the memory overflows without data being available while printing is in progress, the operation at B is transferred as shown in Fig. 3B. Since there is no encoded data, decoding is set. Instead, in order to enable the next printing on the same line, the data ranging from the beginning of the line to the point where the memory has overflowed is written into the FIFO buffer (S15). At the same time, the reference line is secured in RAM 4 (S16). Under this condition, the program waits for the storage end or for the storage interruption due to a memory overflow while the task switching is repeated (S17 and S17-1). Upon detection of the interruption of printing due to a memory overflow, the task moves the remaining encoded data of the previous line to the beginning of the SAF memory 8 (S18), indicates the data of the previous line which has been saved in the RA 4 the buffer memory 4 a back as reference line data (S19) and then begins storage (S 20). During the storage, steps S1 to S5 shown in FIG. 3A are carried out.

The task that is waiting for the interrupt or end of storage while printing is in progress should now have determined this. Then the task returns to the reference line data which has been saved in the RAM 4 in the line buffer 4 a (S21) and resumes printing (S22). After that, the coded data that have been saved in the FIFO buffer are read out and decoded one after the other. If the FIFO buffer runs without data, the data is read from the SAF memory 8 and decoded. Such a procedure is represented by steps S7 to S11 in FIG. 3A. In the procedure described above, it is possible to copy a template by means of a single motor and the SAF memory 8 and by a two-dimensional coding scheme regardless of the amount of image data.

Fig. 3C shows a procedure available in the embodiment for transferring image data stored for copying to a remote facsimile machine only when there is no memory overflow. This process is not carried out if the memory is empty or if the memory has overflowed. In the standby mode only the start monitor task is carried out. The transfer of image data stored in the memory should begin when the operator moves a start key immediately after pressing the copy key. When the actuation of the start button is determined, the start monitor I determines whether image data are present in the memory or not. At the beginning, a channel connection task is started (S14). This task simply switches to an OH relay (which selects a phone or facsimile machine) on the facsimile side; a call should have been received on the phone beforehand. A phase B protocol task is then started (S42). After a transmission to the remote device is determined, an image data transmission task is started (S43).

After that, a decoding task belonging to group II is generated (S44 and S51). Here the words "create a task" refer to starting a task that belongs to another group and has to be carried out at the same time. While the start monitors I and II end when the channel is connected and when the decoding task is generated, the image data transmission task and the decoding task operate simultaneously in FIG. 3C. The decoding task is used to decode the encoded data stored in the SAF memory 8 and to reconstruct it in the line buffer. As soon as a line is decoded (S52), the task of the next group is started and is ended when the EOFB code is determined (S53 and S54). In the group I or image data transfer task, the data that has been reconstructed in the line buffer is re-encoded to match the mode of the remote device and is then sent. If there is data in the line buffer (yes, at step S45), the task is switched each time a line is encoded (S46 and S47). If all the data is encoded (No, at step S48), a control return (RTC) code is sent (S49), and then a phase D protocol task is started (S50).

Thus, the invention provides a facsimile machine with various unexpected benefits, which are listed below.

• 1) A scanner and a plotter use a single drive motor together. A scanner for reading a template and one Memory for storing image data from the scanner dispensed and compressed are provided. Of the Plotter prints the image data, which is compressed and then reconstructed have been structured. In connection with the fact that a Two-dimensional coding scheme is used to create a template copying with the help of a SAF memory, the compress sions or compression ratio improved.
• 2) The saving and printing of image data are each performed as a corresponding task. Therefore, if a memory overflow occurs while storage is in progress, it is possible for a memory overflow to wait for printing The current parameters are protected. Hence can control via the software is made easier.
• 3) A facility is provided to determine whether Image data stored for a copy purpose to a remote station based on the storage in the memory and the memory overflow information can be sent. There Such image data can be sent directly to a desired location tion, which saves time and effort that can.

Claims (4)

1. facsimile machine, with a scanner to read a template and generate corresponding image data, with an image memory for storing the image data in compressed form, and with a plotter to print the compressed and then reconstructed image data, the scanner and the plotter share a single drive motor, characterized in that when the image data is written into the image memory and then printed, the image data are stored and the image data are printed using a two-dimensional encoding method. 2. facsimile machine according to claim 1, characterized in that the storage of the image data and the printing of the image data each be carried out by a special task. 3. facsimile machine according to claim 1, characterized in that the storage of the image data and the preservation of the data for printing is effected by means of a line buffer, if a line of the line buffer is fully encoded, the co dated line as a reference line for the next one to code rende row is used, and that data on the reference time le stored in the image memory when saving and printing the image data alternately. 4. facsimile machine according to claim 1, characterized in that a decision device is provided to based on the storage condition of the image memory and the memory run information to determine whether an operation, image data too  transferred, which represent a template, and for a copy purpose are stored to a remote facsimile device can be sent or not, and that the image data is sent if there is a memory overflow in the course of storage has not occurred.